Performance Demonstration Statement Contros HydroC/CO2.

Abstract

Alliance for Coastal Technology (ACT) demonstration projects are designed to characterize performance of relatively new and promising instruments for applications in coastal science, coastal resource management and ocean observing. ACT has evaluated four commercial pCO2 instruments that are capable of being moored for weeks to months. This document is termed a “Demonstration Statement” and provides a summary of the results for the Contros HydroC™ /CO2. Briefly, test instruments were mounted on surface moorings in a temperate stratified estuary (Twanoh Buoy, Hood Canal Washington; August-September 2009; http://orca.ocean.washington.edu/mooringDesign.html;) and a coral reef (Kaneohe Bay Hawaii; October-November 2009; http://www.pmel.noaa.gov/co2/coastal/HI/). The sites were chosen based on existing moorings and the expected rapid changes in seawater temperature and pCO2. Water samples were collected to determine pH and Total Alkalinity (TA) for calculation of pCO2 (CO2Sys; Pierrot et.al. 2006) and direct measurements of pCO2 using a flow-through pCO2 analyzer (Oregon State University; gas equilibration and infrared gas detection). In situ pCO2 measurements are compared to both of these references and estimates of analytical and environmental variability are reported. Quality Assurance (QA) and oversight of the demonstration process was accomplished by the ACT QA specialists, who conducted technical, protocol and data quality audits. At Twanoh buoy, Hood Canal, temperature varied from 11.09 to 19.62 oC and salinity varied from 24.3 to 35.2 over the deployment. Measure pCO2 values of reference samples varied from 334 to 488 µatm while the hourly measured values from the HydroC™ /CO2 varied from about 200 to 820 µatm providing a more complete assessment of the variability in the ecosystem. The mean and standard deviation of the difference for individual HydroC™ /CO2 values and the Flow Analyzer reference measurements were -7 ± 20 µatm (n=29; HydroC™ /CO2 - Flow Analyzer). The mean and standard deviation of the difference for individual HydroC™ /CO2 determinations and the pCO2Sys reference measurements were -16 ± 26 µatm (n=37; HydroC™ /CO2 - pCO2Sys). At NOAA Crimp 2 buoy, Kaneohe Bay, temperature varied from 23.24 to 28.27 oC and salinity varied from 34.1 to 35.2 over the deployment. Measured pCO2 values of reference samples varied from 314 to 608 µatm, while the hourly instrument measurements varied from 360 to 900 µatm, again demonstrating the full variability in the ecosystem. The mean and standard deviation of the difference for individual HydroC™ /CO2 determinations and the Flow Analyzer measurements were +55 ± 17 µatm (n=5; HydroC™ /CO2 - Flow Analyzer). The mean and standard deviation of the difference for individual HydroC™ /CO2 determinations and the pCO2Sys reference measurements were +96 ± 25 µatm (n=37; HydroC™ /CO2 - pCO2Sys). Both of the instrument systems tested functioned throughout the month long test period, and 100 percent of expected data were retrieved. Issues with shipping and customs did result in a delayed start of the deployment at Hawaii by 6 days. The time-series data provided by the instruments (n=504 and 436 for HI and WA, respectively) revealed diel patterns in pCO2 and captured a significantly greater dynamic range and temporal resolution than could be obtained from discrete reference samples. There were no changes in the differences between instrument and reference measurements during either test, indicating that biofouling and instrument drift did not affect measurement performance over the duration of the test